姓 名:张宪民 教授/博士生导师
办公地点:知行楼327B
Email:zhangxm@atm.neu.edu.cn
1.个人简介
2014年11月至今vic008维多利亚教授;
2013年04月~2014年10月,日本东北大学材料研究所任助理教授;
2010年04月~2013年03月,日本东北大学材料研究所博士后;
2008年11月~2010年03月,日本九州大学先导物质化学研究所博士后;
2008年毕业于中国科学院长春光学精密机械与物理研究所,获博士学位。
担任JACS、Nature Communications、Science Advance、ACS Nano等期刊审稿人;担任国家自然科学基金等项目的通讯评审专家;获吉林省自然科学奖一等奖、辽宁省自然科学学术成果一等奖、中国科学院“朱李月华”博士奖、中国科学院“横山 明聪”博士奖以及中国科学院优秀毕业生等荣誉。
2.研究方向
① 电子学材料与电子器件;
② 功能材料的第一性原理计算与设计;
③ 新型半导体材料设计、薄膜取向生长及新能源应用。
3.招生信息
每年招收优秀硕士生2-3名;博士生1-2名。
4.人才培养情况
毕业研究生10名(获国家奖学金3名、辽宁省优秀毕业生4名、中国航天冠名奖学金1名;优秀硕士毕业论文2人);学生就业单位包括华为、美的、中兴、海康威视、黎明航空和台积电等五百强企业。
5.近年来承担的科研项目
以项目负责人承担国家级自然科学基金项目4项、中央高校基本科研业务费项目等省部级课题8项,横向课题3项。
6.研究成果概况
在材料、物理和化学类高水平英文学术期刊发表SCI检索论文80 余篇,出版英文学术专著章节2部,包括Nature Communications、ACS Applied Materials & Interfaces、Carbon、Physics Review期刊 (7篇)等;被SCI论文引用1800余次,入选ESI高被引论文2篇。
7.学术专著
(1) Xianmin Zhang, Outlook and Challenges of Nano Devices, Sensors, and MEMS, Springer, 出版时间2017.4.
(2) Xianmin Zhang, et al., Ferroelectrics and Their Applications, InTech, 出版时间2018.10.
代表性学术论文:
① 电子学材料与电子器件:
(1) Xianmin Zhang, et al., Interface Hybridization and Spin Filter Effect in Metal-free Phthalocyanine Spin Valves, Physical Chemistry Chemical Physics (2020), https://doi.org/10.1039/D0CP00651C.
(2) Junwei Tong, et al., Defect states dependence of spin transport in iron phthalocyanine spin valves, Physical Review B, 99, 054406 (2019).
(3) Xianmin Zhang, et al., Observation of a large spin-dependent transport length in organic spin valves at room temperature, Nature Communications, 4, 1392 (2013).
此领域其他代表作:
(4) Xianmin Zhang, et al., Room temperature magnetoresistance effects in ferroelectric poly(vinylidene fluoride) spin valves, Journal of Materials Chemistry C, 5, 5055 (2017);
(5) Xianmin Zhang, et al., Spin conserved electron transport behaviors in fullerenes (C60 and C70) spin valves, Carbon, 106, 202 (2016);
(6) Xianmin Zhang, et al., Magnetoresistance Effect in Rubrene-Based Spin Valves at Room Temperature, ACS Applied Materials & Interfaces, 7, 4685 (2015).
② 功能材料的第一性原理计算与设计:
(1) Yuxuan Feng, et al., Effect of Ta capping layer on the magnetic coupling oscillation of L10-MnGa/Co/Ta films. Journal of Magnetism and Magnetic Materials (2020). https://doi.org/10.1016/j.jmmm.2020.166994.
(2) Xianmin Zhang, et al., Interfacial magnetic coupling and the confinement effect of spin electrons for τ-MnAl/Ni multilayers, Physics Letters A, 384,126096 (2020).
(3) Junwei Tong, et al., Unexpected magnetic coupling oscillations for L10-MnGa/Co(Fe) films induced by quantum wells, Physical Review B, 97, 184426 (2018).
此领域其他代表作:
(4) Junwei Tong, et al., Unusual interfacial magnetic interactions for s-MnAl with Fe(Co) atomic layers, Physical Chemistry Chemical Physics, 21, 2443 (2019);
(5) Junwei Tong, et al., Magnetic coupling in L10-MnGa/Ni films, Materials Research Express, 6, 116414 (2019).
③ 新型半导体材料设计、薄膜取向生长及新能源应用:
(1) Liuxia Ruan, et al., Novel Synthesis with a High Yield and Magnetic Modification of Tb-Phthalocyanine Molecules, European Journal of Inorganic Chemistry(2020). https://doi.org/10.1002/ejic.202000253.
(2) Tingting Liu, et al., Facile synthesis and characterization of crystalline iron phthalocyanine, Materials Letters. 237, 319 (2019).
(3) Xiaowei Ai, et al., Phase modification of copper phthalocyanine semiconductor by converting powder to thin film, Applied Surface Science, 428, 788 (2018).
此领域其他代表作:
(4) Xianmin Zhang, et al., Interface effects on perpendicular magnetic anisotropy for molecular-capped cobalt ultrathin films, Applied Physics Letters, 99,162509 (2011);
(5) Xianmin Zhang, et al., Enhanced red phosphorescence in nanosized CaTiO3: Pr3+ phosphors, Applied Physics Letters, 90, 151911(2007);
(6) Rui Zhang, et al., α-Fe2O3/BiFeO3 composites as visible-active photocatalysts and their optical response mechanism, Journal of Physics and Chemistry of Solids. 141, 109329(2020);
(7) Jiaxin Lin, et al., Pt-doped a-Fe2O3 photoanodes prepared by a magnetron sputtering method for photoelectrochemical water splitting, Materials Research Bulletin. 91, 214(2017).